Electronic ecosystem for medical examination room

ABSTRACT

A system comprises a storage device, a piece of medical equipment, a portable computing device, and a hub portal. The piece of medical equipment has at least one electrically powered feature and comprises either a medical examination table or a storage cabinet. The storage device is operable to store data and is remotely located relative to the first piece of medical equipment and relative to the portable computing device. The hub portal is operable to provide communication of one or both of data or commands between the storage device, the piece of medical equipment, and the portable computing device. A method includes enablement or activation of an electrically powered feature of medical equipment upon entry of a portable computing device into a medical examination room. The method also includes disablement or further activation of the electrically powered feature upon exit of the portable computing device from the medical examination room.

BACKGROUND

Some conventional medical and dental examination rooms include a varietyof kinds of equipment that are completely independent of each other andthat require separate interaction with medical personnel. Such equipmentmay include, among other things, an examination table, equipment used tomeasure biological data associated with a patient, a computing deviceproviding read/write access to a patient's electronic medical record(EMR), cabinets containing medicine and/or other medical equipment, etc.At least some of this equipment may include combinations devices thatinclude one or more of these functions, such as an examination tablecontaining a patient weight sensor. In addition, at least some of thisequipment may include one or more components that are electricallyactuated, electrically powered, or otherwise electrically driven. Forinstance, an examination table may include powered components that raiseand lower at least part of the patient vertically relative to theground, a powered backrest that transitions the patient between agenerally upright seated position and a generally supine position, apowered armrest that raises and lowers a patient's arm, and/or othercomponents that provide some form of powered motion. Equipment that isused to measure biological data associated with a patient may includevarious kinds of sensors, processors, etc. that are operable to senseand process biological parameters such as weight, temperature, bloodpressure, height, etc. Computing devices that provide access to apatient's EMR may include various kinds of user input features,processors, and data communication features that are operable tointerface with the equipment described herein. A cabinet that containsmedicine and/or other medical equipment may include an electricallypowered locking device that locks or unlocks the cabinet in response toan electric control signal.

It may be desirable to provide a device that serves as a hub forcomputing devices and various kinds of medical or dental examinationroom equipment that are electrically actuated, electrically powered, orotherwise electrically driven. Such a hub device may establish anecosystem of devices in the medical or dental examination room,providing a degree of centralized communication and control with suchother equipment. Such a device may be a standalone device or may beintegrated into one or more of the devices (e.g., examination table,computing device, etc.) in the medical examination room.

While several devices and methods have been made and used in a medicalor dental examination room, it is believed that no one prior to theinventors has made or used the inventions described herein.

BRIEF DESCRIPTION OF THE DRAWINGS

While the specification concludes with claims which particularly pointout and distinctly claim this technology, it is believed this technologywill be better understood from the following description of certainexamples taken in conjunction with the accompanying drawings, in whichlike reference numerals identify the same elements and in which:

FIG. 1 depicts a perspective view of an exemplary communication hubassembly that may be used in a medical examination room; and

FIG. 2 depicts another perspective view of the communication hubassembly of FIG. 1;

FIG. 3 depicts a front elevational view of the communication hubassembly of FIG. 1;

FIG. 4 depicts a left side elevational view of the communication hubassembly of FIG. 1;

FIG. 5 depicts a right side elevational view of the communication hubassembly of FIG. 1;

FIG. 6 depicts a perspective view of a communication hub platform deviceof the communication hub assembly of FIG. 1;

FIG. 7 depicts another perspective view of the communication hubplatform device of FIG. 6;

FIG. 8 depicts a top plan view of the communication hub platform deviceof FIG. 6;

FIG. 9 depicts a bottom plan view of the communication hub platformdevice of FIG. 6;

FIG. 10 depicts a front elevational view of the communication hubplatform device of FIG. 6;

FIG. 11 depicts a rear elevational view of the communication hubplatform device of FIG. 6;

FIG. 12 depicts a left side elevational view of the communication hubplatform device of FIG. 6;

FIG. 13 depicts a right side elevational view of the communication hubplatform device of FIG. 6;

FIG. 14 depicts an exploded perspective view of the communication hubplatform device of FIG. 6;

FIG. 15 depicts a block schematic view of internal components of thecommunication hub platform device of FIG. 6;

FIG. 16A depicts a perspective view of the communication hub assembly ofFIG. 1, with a first exemplary add-on tabletop separated from thecommunication hub platform device of FIG. 6;

FIG. 16B depicts a perspective view of the communication hub assembly ofFIG. 1, with the first exemplary add-on tabletop of FIG. 16A secured tothe communication hub platform device of FIG. 6;

FIG. 17 depicts a perspective view of the first exemplary add-ontabletop of FIG. 16A;

FIG. 18 depicts another perspective view of the first exemplary add-ontabletop of FIG. 16A;

FIG. 19A depicts a perspective view of the communication hub assembly ofFIG. 1, with a second exemplary add-on tabletop separated from thecommunication hub platform device of FIG. 6;

FIG. 19B depicts a perspective view of the communication hub assembly ofFIG. 1, with the second exemplary add-on tabletop of FIG. 19A secured tothe communication hub platform device of FIG. 6;

FIG. 20 depicts a perspective view of the first exemplary add-ontabletop of FIG. 19A;

FIG. 21 depicts another perspective view of the first exemplary add-ontabletop of FIG. 19A;

FIG. 22 depicts a perspective view of the communication hub platformdevice of FIG. 6 secured to an integral arm of an exemplary medicalexamination table, with a left patient armrest of the table omitted forclarity;

FIG. 23 depicts a flow diagram of an exemplary set of steps that couldbe performed using the communication hub assembly of FIG. 1;

FIG. 24 depicts an overhead diagrammatic view of the communication hubassembly of FIG. 1 located in an examination room where the set of stepsof FIG. 23 may be performed;

FIG. 25 depicts an overhead diagrammatic view of the communication hubassembly of FIG. 1 located in the examination room of FIG. 24, with acommunications link established with an EMR system and in-roomequipment;

FIG. 26 depicts a perspective view of the communication hub assembly ofFIG. 1 located in the examination room of FIG. 24;

FIG. 27 depicts an overhead diagrammatic view of the communication hubassembly of FIG. 1 leaving the examination room of FIG. 24, with thein-room equipment left in an unlocked state;

FIG. 28 depicts an overhead diagrammatic view of the examination room ofFIG. 24, with a physician entering the examination room while thein-room equipment is in an unlocked state;

FIG. 29 depicts an overhead diagrammatic view of the examination room ofFIG. 24, with the physician of FIG. 28 leaving the examination roomwhile the in-room equipment is in an unlocked state;

FIG. 30 depicts a flow diagram of an exemplary set of steps that couldbe performed using the communication hub assembly of FIG. 1;

FIG. 31 depicts an overhead diagrammatic view of the communication hubassembly of FIG. 1 located in an examination room where the set of stepsof FIG. 30 may be performed;

FIG. 32 depicts an overhead diagrammatic view of the communication hubassembly of FIG. 1 located in the examination room of FIG. 31, with acommunications link established with an EMR system and in-roomequipment, and with equipment in the examination room in an unlockedstate;

FIG. 33 depicts an overhead diagrammatic view of clinical personnelleaving the communication hub assembly of FIG. 1 in the examination roomof FIG. 31, with the communication hub assembly of FIG. 1 and thein-room equipment in a locked state;

FIG. 34 depicts an overhead diagrammatic view of a physician in theexamination room of FIG. 31, with the communication hub assembly of FIG.1 and the in-room equipment in an unlocked state;

FIG. 35 depicts an overhead diagrammatic view of the physician leavingthe communication hub assembly of FIG. 1 in the examination room of FIG.31, with the communication hub assembly of FIG. 1 and the in-roomequipment in a locked state;

FIG. 36 depicts a perspective view of an alternative examination roomwith a mounted version of the communication hub assembly of FIG. 1;

FIG. 37 depicts an overhead diagrammatic view of the communication hubassembly of FIG. 1 mounted in the examination room of FIG. 36, with acommunications link established with an EMR system and in-roomequipment, and with equipment in the examination room in an unlockedstate;

FIG. 38 depicts a perspective view of an alternative examination roomwith another mounted version of the communication hub assembly of FIG.1;

FIG. 39 depicts an overhead diagrammatic view of the communication hubassembly of FIG. 1 mounted in the examination room of FIG. 38, with acommunications link established with an EMR system and in-roomequipment, and with equipment in the examination room in an unlockedstate;

FIG. 40 depicts a flow diagram of an exemplary set of steps that couldbe performed with a medical examination table in conjunction with thecommunication hub assembly of FIG. 1;

FIG. 41 depicts a side elevation view of an exemplary medicalexamination table with which the set of steps of FIG. 40 may beperformed, with a patient approaching the examination table;

FIG. 42 depicts a side elevation view of the medical examination tableof FIG. 41, with the patient seated on the medical examination table;

FIG. 43 depicts a side elevation view of the medical examination tableof FIG. 41, with the patient's vitals being checked;

FIG. 44 depicts a side elevation view of the medical examination tableof FIG. 41, with the patient's weight being checked;

FIG. 45 depicts a side elevation view of the medical examination tableof FIG. 41, with the patient leaving the medical examination table;

FIG. 46 depicts a flow diagram of another exemplary set of steps thatcould be performed with a medical examination table in conjunction withthe communication hub assembly of FIG. 1;

FIG. 47 depicts a side elevation view of an exemplary medicalexamination table with which the set of steps of FIG. 46 may beperformed, with a patient approaching the examination table;

FIG. 48 depicts a side elevation view of the medical examination tableof FIG. 41, with the patient seated on the medical examination table;

FIG. 49 depicts a side elevation view of the medical examination tableof FIG. 41, with the patient's weight being checked;

FIG. 50 depicts a side elevation view of the medical examination tableof FIG. 41, with the patient's vitals being checked;

FIG. 51 depicts a side elevation view of the medical examination tableof FIG. 41, with the patient being raised to a lifted position forexamination;

FIG. 52 depicts a side elevation view of the medical examination tableof FIG. 41, with the patient leaving the medical examination table;

FIG. 53 depicts a flow diagram of an exemplary set of steps that couldbe performed with the communication hub platform device of FIG. 6 and amedical device;

FIG. 54 depicts a perspective view of the communication hub platformdevice of FIG. 6 and an adjacent ECG device, with which the set of stepsof FIG. 53 may be performed;

FIG. 55 depicts a perspective view of the communication hub platformdevice and medical device of FIG. 54, with the ECG device positioned ona patient;

FIG. 56 depicts a perspective view of the communication hub platformdevice and medical device of FIG. 54, with the ECG device againpositioned adjacent to the communication hub platform device; and

FIG. 57 depicts a diagrammatic view of an exemplary system establishedbetween the communication hub assembly of FIG. 1 and remote equipment.

The drawings are not intended to be limiting in any way, and it iscontemplated that various embodiments of the technology may be carriedout in a variety of other ways, including those not necessarily depictedin the drawings. The accompanying drawings incorporated in and forming apart of the specification illustrate several aspects of the presenttechnology, and together with the description serve to explain theprinciples of the technology; it being understood, however, that thistechnology is not limited to the precise arrangements shown.

DETAILED DESCRIPTION

The following description of certain examples of the technology shouldnot be used to limit its scope. Other examples, features, aspects,embodiments, and advantages of the technology will become apparent tothose skilled in the art from the following description, which is by wayof illustration, one of the best modes contemplated for carrying out thetechnology. As will be realized, the technology described herein iscapable of other different and obvious aspects, all without departingfrom the technology. Accordingly, the drawings and descriptions shouldbe regarded as illustrative in nature and not restrictive.

It is further understood that any one or more of the teachings,expressions, embodiments, examples, etc. described herein may becombined with any one or more of the other teachings, expressions,embodiments, examples, etc. that are described herein. Thefollowing-described teachings, expressions, embodiments, examples, etc.should therefore not be viewed in isolation relative to each other.Various suitable ways in which the teachings herein may be combined willbe readily apparent to those of ordinary skill in the art in view of theteachings herein. Such modifications and variations are intended to beincluded within the scope of the claims.

I. Exemplary Communication Hub Assembly

A. Overview

FIGS. 1-5 show an exemplary communication hub assembly (10) that may beused in a medical examination room. While communication hub assembly(10) is described as being used in a medical examination room in variousexamples provided herein, it should be understood that communication hubassembly (10) may be used in a variety of other settings as well. By wayof example only, the teachings herein may be readily applied to thecontext of a dental examination room, veterinary examination room, andvarious other contexts. Various other settings in which communicationhub assembly (10) may be used will be apparent to those of ordinaryskill in the art in view of the teachings herein.

Communication hub assembly (10) of the present example comprises a cart(20) and a communication hub platform device (100). Cart (20) of thepresent example comprises a column (22) with a set of wheels (24) andaccessory compartments (26). Hub platform device (100) is secured to thetop of column (22). Column (22) comprises at least two axially alignedtubular segments arranged in a telescoping relationship, such that theeffective height of column (22) may be adjusted as will be described ingreater detail below. Wheels (24) enable cart (20) to be readilytransported along the ground. Wheels (24) may be selectively locked,using known structures and techniques, to secure the position of cart(20). Accessory compartments (26) are configured to hold various itemssuch as binders, etc. In the example shown, a digital thermometer (30)is shown in one accessory compartment (26). Digital thermometer (30)includes a cord (32) with a plug (34) that is configured to couple withhub platform device (100) as will be described in greater detail below.Other suitable items that may be placed in accessory compartments (26)will be apparent to those of ordinary skill in the art in view of theteachings herein. It should also be understood that accessorycompartments (26) may be modified, substituted, supplemented, or omittedas desired.

A height adjustment assembly (40) extends transversely from column (22),just below hub platform device (100). Height adjustment assembly (40)comprises a fixed paddle (42) and a movable paddle (44). Movable paddle(44) is pivotable toward and away from fixed paddle (42). In particular,movable paddle (44) is pivotable toward fixed paddle (42) to unlock thevertical position of an upper telescoping segment of column (22)relative to a lower telescoping segment of column (22), thereby enablingan operator to adjust the effective height of column (22). Once theoperator releases movable paddle (44), a resilient member (e.g., torsionspring, leaf spring, coil spring, etc.) biases movable paddle (44)pivotably away from fixed paddle (42), such that movable paddle (44)returns to the position shown in FIGS. 1-6. This return of movablepaddle (44) to the position shown in FIGS. 1-6 locks the verticalposition of an upper telescoping segment of column (22) relative to alower telescoping segment of column (22), thereby locking the adjustedeffective height of column (22). Various suitable components that may beused to provide such height adjustment capabilities will be apparent tothose of ordinary skill in the art in view of the teachings herein. Itshould also be understood that some versions of cart (20) may simplylack height adjustment capabilities.

B. Exemplary Communication Hub Platform Device

FIGS. 6-15 show communication hub platform device (100) in greaterdetail. Communication hub platform device (100) comprises an upperhousing (120) and a lower housing (140), which together contain internalcomponents (160). A bracket (170) is fixedly secured to the bottom oflower housing (120). Bracket (170) is configured to complement featuresat the top of column (22) to thereby secure communication hub platformdevice (100) to cart (20). In some versions, while bracket (170) may berigidly secured to column (22), bracket (170) is configured to beselectively removed from column (22) by an operator of assembly (10).Various suitable ways in which bracket (170) may be removably (ornon-removably) secured to column (22) will be apparent to those ofordinary skill in the art in view of the teachings herein.

Upper housing (120) includes an upwardly presented surface (122) that isbounded by lateral edges (124), a distal edge (126), and a proximalledge (128). Each lateral edge (124) includes a respective mountingchannel (130) as will be described in greater detail below. As best seenin FIGS. 12-13, surface (122) is oriented at an oblique angle relativeto the horizontal plane. Surface (122) is sized and configured to enableplacement of items such as mobile computing devices, etc., on surface(122) as will be described in greater detail below. Proximal ledge (128)is configured to serve as a rest for items placed on surfaces (122),preventing such items from sliding off of the proximal side ofcommunication hub platform device (100).

Upper housing (120) further includes a window (132), which permitsviewing of a screen (134). In the present example, screen (134) isconfigured to display information relating to vital signs and/or otherbiological information associated with the patient. Screen (134) alsoprovides a touchscreen interface for an operator to provide commands tohub platform device (100) and/or to equipment that is coupled with hubplatform device (100).

The proximal end of communication hub platform device (100) furtherincludes a pair of light emitting features (136). In the presentexample, the light emitting features (136) are operable to providevisual alarms in response to various conditions. For instance, suchconditions may relate directly to the condition of the hub platformdevice (100) (e.g., low battery, other malfunction), the condition ofequipment that is coupled with the hub platform device (100), a faultyconnection between the hub platform device (100) and associatedequipment, a condition of the patient, and/or various other conditions.In some instances, light emitting features (136) emit light of differentcolors (e.g., red and yellow). Various suitable ways in which lightemitting features (136) may be used to provide an indication of variouskinds of conditions will be apparent to those of ordinary skill in theart in view of the teachings herein.

Communication hub platform device (100) further comprises a plurality ofports (180, 182, 184, 186, 188, 190, 192) that are configured to provideone-way or two-way wired communication and/or other kinds ofcommunication with other devices. Each of these ports (180, 182, 184,186, 188, 190, 192) will be described in greater detail below. It shouldbe understood, however, that these ports (180, 182, 184, 186, 188, 190,192) are merely illustrative examples. Any of these ports (180, 182,184, 186, 188, 190, 192) may be omitted if desired. In addition or inthe alternative, any suitable kinds of additional ports may be added tocommunication hub platform device (100). Various suitable combinationsof ports that may be incorporated into communication hub platform device(100) will be apparent to those of ordinary skill in the art in view ofthe teachings herein.

As best seen in FIGS. 6 and 13, the right-hand side of communication hubplatform device (100) comprises a port (180) that is configured tocouple with an oxygen saturation (SO₂) monitoring device (not shown).Communication hub platform device (100) may thus receive oxygensaturation (SO₂) readings via port (180). As best seen in FIGS. 7 and12, the left-hand side of communication hub platform device (100)comprises a port (182) that configured to couple with a non-invasiveblood pressure measurement (NIBPM) cuff assembly. In particular, such acuff assembly comprises a set of tubes (an air inlet tube and an airoutlet tube) that are both coupled with a plug. Port (182) is configuredto receive such a plug and is thereby operable to couple the cuff with aNIBPM module (167) within communication hub platform device (100) aswill be described in greater detail below.

As best seen in FIG. 11, the distal side of communication hub platformdevice (100) comprises a plurality of ports (184, 186, 188, 190, 192).Port (184) comprises a conventional RJ45 port that is operable to couplewith a cable that is further coupled with a patient examination table(300). For instance, such a patient examination table (300) may beoperable to detect a patient's weight as described below, andcommunication hub platform device (100) may receive the patient's weightvia the cable coupled with port (184). In addition, communication hubplatform device (100) may transmit commands to a patient examinationtable (300) via a cable coupled with port (184). Such commands mayinclude commands that operate powered features of the patientexamination table (300), such as powered components that raise and lowerat least part of the patient vertically relative to the ground, apowered backrest that transitions the patient between a generallyupright seated position and a generally supine position, a poweredarmrest that raises and lowers a patient's arm, and/or other componentsthat provide some form of powered motion.

Port (186) comprises a conventional RJ50 port. Port (186) is operable tocouple with plug (34) of digital thermometer (30) as described above.Communication hub platform device (100) may thus receive patienttemperature readings via port (186). Port (188) comprises a custom USBport that is operable to provide communication between communication hubplatform device (100) and a personal computer and/or other kind ofcomputing device. Port (190) comprises a conventional USB port. In thepresent example, port (190) is used to provide firmware upgrades tocommunication hub platform device (100).

Port (192) comprises a socket that is configured to receive acomplementary plug of a power cord, such that a battery pack (164)within communication hub platform device (100) is rechargeable throughpower through port (192). In some other versions, communication hubplatform device (100) comprises features enabling battery pack (164) tobe charged via inductive charging, such that port (192) may be omittedif desired. It should also be understood that, in some instances,communication hub platform device (100) may receive operational powervia port (192) (e.g., when battery pack (164) is depleted or omitted,etc.). Moreover, some other kind of port (e.g., USB port, etc.) may beused to provide charging of battery pack (164) and/or operational powerfor communication hub platform device (100).

The distal side of communication hub platform device (100) furthercomprises a power button (194) that is operable to toggle communicationhub platform device (100) between an on and off state. Various suitableforms that power button (194) may take will be apparent to those ofordinary skill in the art in view of the teachings herein.

In some versions, communication hub platform device (100) comprises anadditional Ethernet port, USB port, and/or other kind of port thatprovides a wired connection with one or more other computing devices, alocal area network, a wide area network, etc. Such an additionalcommunication port may be used to transmit patient data via cable to anEMR system. Other suitable ways in which one or more additionalcommunication ports may be used will be apparent to those of ordinaryskill in the art in view of the teachings herein.

FIG. 15 shows internal components (160) in block schematic form. Itshould be understood that these internal components (160) are merelyillustrative examples. It is contemplated that various other internalcomponents (160) may be used in addition to or in lieu of thosedescribed below. The below examples should therefore not be read asbeing limiting in any way. As shown, internal components (160) comprisea processing module (162), a storage device (163), a battery pack (164),a near field communication (NFC) module (165), a low energy Bluetooth(BLE) communication module (166), and a NIBP module (167). Processingmodule (162) is in communication with ports (180, 184, 186, 188, 190,192), power button (194), storage device (163), battery pack (164),light emitting features (136), display screen (134), near fieldcommunication (NFC) module (165), low energy Bluetooth (BLE)communication module (166), and NIBP module (167). In particular,processing module (162) is configured to process data and/or commandsthat are delivered through ports (180, 184, 186, 188, 190, 192).Processing module (162) is also configured to deliver data and/orcommands through ports (180, 184, 186, 188, 190, 192). Various examplesof data and/or commands being delivered to and/or from processing module(162) will be described in greater detail below. Various suitablecomponents and configurations that may be used to form processing module(162) will be apparent to those of ordinary skill in the art in view ofthe teachings herein. It should also be understood that, whileprocessing module (162) is referred to as a “module,” processing module(162) may in fact be formed by several modules that are spaced apart yetin communication with each other.

Processing module (162) is operable to retrieve data from storage device(163) and store data in storage device (163). For instance, storagedevice (163) may include various control algorithms that arecommunicated to processing module (162) and are executed by processingmodule (162). Processing module (162) may also store patient data and/orother data on storage device (163). Various suitable ways in whichstorage device (163) may be used will be apparent to those of ordinaryskill in the art in view of the teachings herein. Similarly, varioussuitable forms that storage device (163) may take will be apparent tothose of ordinary skill in the art in view of the teachings herein.

Battery pack (164) is configured to provide operational power tocommunication hub platform device (100). By way of example only, batterypack (164) may comprise one or more lithium ion battery cells. As notedabove, battery pack (164) is rechargeable via port (192). Processingmodule (162) may be configured to execute one or more smart chargingalgorithms in order to provide regulated recharging of battery pack(164) through known techniques. Processing module (162) may also beconfigured to execute an algorithm to monitor the charge in battery pack(164). Pursuant to this algorithm, processing module (162) may providereal-time feedback regarding the charge level of battery pack (164) viadisplay screen (134). In addition or in the alternative, processingmodule (162) may provide a low battery alert via display screen (134)and/or via some audio output device when the charge level of batterypack (164) falls below a certain level. Other suitable forms thatbattery back (164) may take, as well as other ways in which processingmodule (162) may interact with battery pack (164), will be apparent tothose of ordinary skill in the art in view of the teachings herein.

As noted above, processing module (162) is in communication with lightemitting features (136) and display screen (134). Processing module(162) stores and/or executes user settings, communication hub platformdevice (100) configurations, etc., and orchestrates communicationsbetween communication hub platform device (100), a mobile computingdevice on surface (122), display screen (134), light emitting features(136), and other peripherals.

NFC module (165) and BLE communication module (166) are configured toprovide wireless communication with other devices using known componentsand techniques. By way of example only, when an operator places aconventional tablet device, smartphone device, or similar device onupwardly presented surface (122), processing module (162) may establishbi-directional wireless communication with that tablet device orsmartphone device, etc. via NFC module (165) or BLE communication module(166). Similarly, when an operator places a conventional mobile computeron upwardly presented surface (122), processing module (162) mayestablish bi-directional wireless communication with that mobilecomputer via NFC module (165) or BLE communication module (166). Inaddition or in the alternative, processing module (162) may establishbi-directional wireless communication with other kinds of equipment viaNFC module (165) or BLE communication module (166). For instance,processing module (162) may establish bi-directional wirelesscommunication with other kinds of equipment that are placed on upwardlypresented surface (122). Moreover, processing module (162) may establishbi-directional wireless communication with equipment that is locatedwithin the same examination room (but not necessarily placed on upwardlypresented surface (122)). Such other equipment may include, among otherthings, an examination table, equipment used to measure biological dataassociated with a patient, a computing device providing read/writeaccess to a patient's electronic medical record (EMR), cabinetscontaining medicine and/or other medical equipment, etc. Furtherexamples of such communication will be described in greater detailbelow, while still other examples will be apparent to those of ordinaryskill in the art in view of the teachings herein.

It should also be understood that NFC module (165) and BLE communicationmodule (166) are merely illustrative examples. In some alternativeversions, communication hub platform device (100) only has one module(165, 166) and not the other module (165, 166). In addition or in thealternative, any other suitable kind(s) of wireless communicationtechnologies may be incorporated into communication hub platform device(100).

NIBPM module (167) of the present example comprises a set of componentsthat are operable to obtain NIBPMs via a cuff assembly that is coupledwith port (182). By way of example only, NIBPM module (167) may comprisean air pump, one or more valves, one or more pressure sensors, fluidconduits, and/or any other component(s) that may be used to provideNIBPMs. By way of example only, NIBPM module (167) may be constructedand operable in accordance with at least some of the teachings of U.S.Provisional Pat. App. No. 62/110,704, entitled “System and Method forNon-Invasive Blood Pressure Measurement,” filed Feb. 2, 2015, thedisclosure of which is incorporated by reference herein. Other suitableways in which NIBPM module (167) may be configured and operable will beapparent to those of ordinary skill in the art in view of the teachingsherein. It should also be understood that processing module (162) may beoperable to selectively activate NIBPM module (167) in accordance withoperator input. In addition, processing module (162) may process NIBPMsand/or other data obtained through NIBPM module (167) and transmit suchinformation to storage device (163) and/or to a remote device.

The foregoing examples of internal components (160) are merelyillustrative examples. It should be understood that communication hubplatform device (100) may include a variety of other internal components(160) in addition to or in lieu of those described above. Various othersuitable kinds of internal components (160) that may be incorporatedinto communication hub platform device (100) will be apparent to thoseof ordinary skill in the art in view of the teachings herein.

C. Exemplary Tabletop Accessories

In some instances, an operator may wish reduce the risk of having itemsinadvertently slide or roll off of upwardly presented surface (122).FIGS. 16A-18 show an exemplary tray (200) that may be secured tocommunication hub platform device (100) to reduce this risk. Tray (200)of the present example comprises an upwardly presented surface (202)that is bounded by a proximal lip portion (204), a distal lip portion(206), and a pair of side lip portions (208). Lip portions (204, 206,208) extend upwardly from and around upwardly presented surface (202),thereby providing structural barriers to assist in retaining items onupwardly presented surface (202). Side lip portions (208) include gaps(209) that are configured to provide clearance for cables extendinglaterally from devices placed on upwardly presented surface (202).

As best seen in FIG. 18, the underside of tray (200) includes a pair ofrails (210) and a boss member (212). Rails (210) are configured toslidably fit in mounting channels (130) to provide engagement betweentray (200) and lateral edges (124) of upper housing (120). Boss member(212) is configured to engage distal edge (126) of upper housing (120).Of course, any other suitable structures may be used to provideengagement between tray (200) and communication hub platform device(100). It should be understood from the foregoing that tray (200) may beremovably secured to communication hub platform device (100) as shown inFIGS. 16A-16B. It should also be understood that NFC module (165) andBLE communication module (166) may communicate with a device placed onupwardly presented surface (202) just as well as such modules (165, 166)would communicate with the same device if it were placed directly onupwardly presented surface (122).

FIGS. 19A-21 show another exemplary tray (250) that may be secured tocommunication hub platform device (100). Tray (250) of this example issubstantially identical to tray (250), except that tray (250) is largerto accommodate more items or larger items. Tray (250) of the presentexample comprises an upwardly presented surface (252) that is bounded bya proximal lip portion (254), a distal lip portion (256), and a pair ofside lip portions (258). Lip portions (254, 256, 258) extend upwardlyfrom and around upwardly presented surface (252), thereby providingstructural barriers to assist in retaining items on upwardly presentedsurface (252). Side lip portions (258) include gaps (259) that areconfigured to provide clearance for cables extending laterally fromdevices placed on upwardly presented surface (252).

As best seen in FIG. 21, the underside of tray (250) includes a pair ofrails (260) and a boss member (262). Rails (260) are configured toslidably fit in mounting channels (130) to provide engagement betweentray (250) and lateral edges (124) of upper housing (120). Boss member(262) is configured to engage distal edge (126) of upper housing (120).Of course, any other suitable structures may be used to provideengagement between tray (250) and communication hub platform device(100). It should be understood from the foregoing that tray (250) may beremovably secured to communication hub platform device (100) as shown inFIGS. 19A-19B. It should also be understood that NFC module (165) andBLE communication module (166) may communicate with a device placed onupwardly presented surface (202) just as well as such modules (165, 166)would communicate with the same device if it were placed directly onupwardly presented surface (122).

Of course, trays (200, 250) are just merely illustrative examples ofaccessories that may be secured to communication hub platform device(100). Other suitable accessories will be apparent to those of ordinaryskill in the art in view of the teachings herein. Alternatively,communication hub platform device (100) may be used without accessoriessecured thereto.

D. Exemplary Alternative Mounting Structures

In the example of communication hub assembly (10) described above,communication hub platform device (100) is secured to a cart (20).However, cart (20) is just one example of what communication hubplatform device (100) may be secured to. FIG. 22 shows another merelyillustrative example of something that communication hub platform device(100) may be secured to. In particular, FIG. 22 shows an exemplarymedical examination table (300) with an integral mounting arm (310).While FIG. 22 includes a right patient armrest (304), it should beunderstood that a left patient armrest (304) is intentionally omittedfrom FIG. 22 for clarity. As shown in FIGS. 24-29, 31-39, 41-45, 47-52,and 57, medical examination table (300) of the present example in factincludes a left patient armrest (304). Mounting arm (310) extendsoutwardly and upwardly from a base (302) of medical examination table(300). In some versions, mounting arm (310) is operable to pivot and/orslide relative to base (302). As shown, communication hub platformdevice (100) is secured to arm (310) and has a conventional mobilecomputer (350) (e.g., laptop computer, etc.) placed on upwardlypresented surface (122). It should therefore be understood thatprocessing module (162) may be in wireless communication with mobilecomputer (350) via NFC module (165) and/or BLE communication module(166).

It should also be understood that processing module (162) may be incommunication with medical examination table (300) via NFC module (165),via BLE communication module (166), via a cable secured to port (184, orin some other fashion. For instance, medical examination table (300) maybe configured to determine the weight of a patient that is seated orsupine on medical examination table (300). In that regard, medicalexamination table (300) may be constructed and operable in accordancewith at least some of the teachings of U.S. Pub. No. 2013/0247300,entitled “Medical Examination Table with Integrated Scale,” publishedSep. 26, 2013, the disclosure of which is incorporated by referenceherein. Medical examination table (300) may communicate the patient'sweight to processing module (162) via NFC module (165), via BLEcommunication module (166), via a cable secured to port (184), or insome other fashion. Medical examination table (300) and/or otherequipment may also be operable to capture a patient's height andcommunicate the patient's height to processing module (162) via NFCmodule (165), via BLE communication module (166), via a cable secured toport (184), or in some other fashion.

In addition or in the alternative, processing module (162) may beoperable to command medical examination table (300) via NFC module(165), via BLE communication module (166), via a cable secured to port(184), or in some other fashion. For instance, processing module (162)may be operable to command medical examination table (300) to raise andlower the patient relative to the ground, to transition between afolded, upright (seated) configuration and a flat (supine)configuration, etc. Other suitable relationships between communicationhub platform device (100) and medical examination table (300) will beapparent to those of ordinary skill in the art in view of the teachingsherein.

While cart (20) and integral mounting arm (310) of medical examinationtable (300) have been provided as examples of structures to whichcommunication hub platform device (100) may be mounted, still otherexamples of such structures will be apparent to those of ordinary skillin the art in view of the teachings herein. Such alternative structuresmay be mobile (e.g., like cart (20)) or secured in a fixed location(e.g., like mounting arm (310)). Regardless of the type of structurecommunication hub platform device (100) is mounted to, some versions maypermit communication hub platform device (100) to be removed from such amounting structure; or may prevent communication hub platform device(100) from being removed from such a mounting structure.

II. Exemplary Electronic Ecosystem Through Communication Hub

The devices described above may be used as part of an electronicecosystem of devices to enable various functionalities within configuredlocations, such as, for example, the exemplary medical examination room(5700) shown in FIG. 57. In examples such as those depicted, one or moredevices such as the medical examination table (300), mobile computer(350), hub platform device (100), and storage cabinet (2400) may becommunicatively coupled with an ecosystem server (5704) via a networkdevice (5702) such as a wireless network router, etc. Other equipmentmay be coupled with ecosystem server (5704) via a network device (5702)as well, including but not limited to RFID sensing devices. Such RFIDsensing devices may be operable to detect the presence of a hub platformdevice (100) in each room and/or various other kinds of inventory. Insome versions, hub platform device (100) serves as an intermediary orcommunications hub between network device (5702) and other equipment inthe medical examination room, such that all communications to and fromsuch equipment pass through hub platform device (100). In some otherversions, one or more pieces of equipment in the medical examinationroom communicate directly with network device (5702), withoutnecessarily communicating with hub platform device (100). In some suchversions, hub platform device (100) is simply omitted. It should also beunderstood that, while hub platform device (100) is provided as astand-alone piece of equipment in this example, any of the functionalityof hub platform device (100) may be integrated into some other piece ofequipment or pieces of equipment in the medical examination room (e.g.,a medical examination table (300), etc.).

The storage cabinet (2400) may comprise a storage container having adoor, drawer, and/or lid, etc. that can be opened to access thecontents, as well as a locking mechanism for locking the door, drawer,and/or lid, etc. in a closed position and preventing access to thecontents. The locking mechanism may be enabled to prevent access to thecontents of the cabinet (2400) or disabled to allow access to thecontents of the cabinet (2400). In some instances, the cabinet (2400) isconfigured to store medicine and includes at least two independentlocking devices, both of which must be unlocked in order to gain accessto the contents of cabinet (2400). The storage cabinet (2400) may alsohave a wireless or wired communication device such as a network card,wireless card, or electrical switch that may receive a signal from anexternal source and cause the locking mechanism (or locking mechanisms)to actuate. Actuation of the locking mechanism may be performed basedupon communication received from the ecosystem server (5704) or anotherdevice. It should also be understood that ecosystem server (5704) may beoperable to provide a lockout of controls of examination table (300).For instance, such examination table (300) controls may be locked outwhenever storage cabinet (2400) is in a locked state. The examinationtable (300) controls may be unlocked when storage cabinet (2400) isunlocked and/or at any other suitable time.

Some versions of the cabinet (2400) may also include temperature controlfeatures. For instance, such temperature control features may beprovided when the cabinet (2400) is used to store temperature sensitivemedications. Such temperature control features may include a temperaturesensor and a feature that is operable to adjust the temperature withinthe cabinet (2400). These temperature control features may be incommunication with the ecosystem server (5704). For instance, theecosystem server (5704) may receive data from the temperature sensor andprovide one or more automated responses when the sensed temperatureexceeds a threshold or falls below a threshold. In some such versions,the ecosystem server (5704) activates a temperature control featurewithin the cabinet (2400) to adjust the temperature to bring thetemperature back within an acceptable range. As another merelyillustrative example, the ecosystem server (5704) may adjust athermostat that is external to the cabinet (2400) yet is operable toaffect the temperature within cabinet (2400) (e.g., by adjusting thetemperature of the room in which the cabinet (2400) is located). As yetanother merely illustrative example, the ecosystem server (5704) maysend an automated alert (e.g., via email, text message, automatedtelephone call, etc.) to the appropriate personnel so such personnel mayreact appropriately to correct the temperature of the cabinet (2400).Other suitable ways in which ecosystem server (5704) may be providedwith temperature sensitivity and responsiveness will be apparent tothose of ordinary skill in the art in view of the teachings herein.

The ecosystem server (5704) may further be communicatively coupled witha database (5706). The database (5706) may comprise one or morerelational databases or other database type, flat file databases,distributed databases, virtual databases, physical disks, or otherstorage types that would allow for the storage and organization of data.The ecosystem server (5704) may comprise one or more physical computers,virtual computers, distributed computers, or other computing devicesthat allow for the manipulation, analysis, and communication of data.The network device (5702) may comprise one or more network hubs,routers, switches, computers, or other devices that can facilitate thereceipt and communication of data across a network of multiple devices.The network device (5702), ecosystem server (5704) and database (5706)could be separate devices in some versions; but in other versions thefunctionalities of two or more of the devices (5702, 5704, 5706) couldbe embodied in a single device. For instance, in some versions, thefunctionality of one or more of these devices (5702, 5704, 5706) may befully integrated into communication hub platform device (100).

The network device (5702) may be communicatively coupled with theexamination room devices (100, 300, 350, 2400) via a wireless connection(e.g., Wi-Fi, Bluetooth, radio, infrared, NFC, or other wirelesscommunication type); or via a wired connection (e.g., USB, Ethernet,coaxial, fiber optic, or other wired communication type). In someversions, a combination of wireless and wired communication may also beused. For example, the hub platform device (100) may be connected to thenetwork device (5702) via a wired connection, whereas the medicalexamination table (300), mobile computer (350), and storage cabinet(2400) may be connected with the network device (5702) via a wirelessconnection. In further examples, the medical examination table (300),mobile computer (350), and storage cabinet (2400) may be connected via awired or wireless connection to the hub platform device (100), which maybe connected to the network device (5702) via a wired or wirelessconnection. In this manner, the hub platform device (100) serves as thesingle point of contact between the medical examination room (5700) andthe network device (5702) while allowing communications from the otherdevices (300, 350, 2400) to pass through the hub platform device (100)to the network device (5702). A variety of communication configurationsare possible and may be desirable depending upon the environment andpurpose for a particular installation. Various suitable configurationsand arrangements will be apparent to those of ordinary skill in the artin view of the teachings herein.

FIGS. 23-56 show examples of steps that can be performed within acommunication hub enabled electronic ecosystem such as that depicted inFIG. 57. It should therefore be understood that all of the below methodsand processes may be carried out using the network device (5702), theecosystem server (5704), and the database (5706) described above. Forexample, FIGS. 23-29 show an example of steps that could be performedwith a hub platform device (100) that is shared across multipleexamination rooms. In this example, hub platform device (100) iscombined with a cart (20) like communication hub assembly (10) describedabove. As shown in FIGS. 23 and 25, when the hub platform device (100)enters (2300) the room, ecosystem connectivity is automaticallyestablished (2302). In this example, the mobile computer (350) isalready placed on and in communication with the hub platform device(100), with each being in communication with the ecosystem server (5706)(containing EMR in this example) via a wireless connection.

When the hub platform device (100) enters the room in FIG. 24,connectivity may need to be established (2302) between the hub platformdevice (100) and other devices available within a specific medicalexamination room (5700) such as a medical examination table (300). Insome examples, connectivity may be established (2302) automatically by awireless connection between the hub platform device (100) and themedical examination table (300) that is available when they are in closeproximity to each other. In other examples, connectivity may beestablished (2302) semi-manually by a user making a wired connectionbetween the hub platform device (100) and the medical examination table(300) when they are in close proximity to each other, for example, byplugging in a USB or Ethernet cable. Since the hub platform device (100)is shared between multiple rooms in this example, it may not beadvantageous for the lock mechanism of storage cabinet (2400) to beenabled or disabled based upon the connectivity or presence of the hubplatform device (100). Thus, in this example, the lock mechanism isdisabled and allows access at all times. However, in examples where thestorage cabinet (2400) contents require a higher level of security, thelock mechanism could be enabled to prevent access when the hub platformdevice (100) is not present in the same room.

As shown in FIGS. 23 and 26, once connectivity is established (2302), apatient's vitals may be taken (2304) using one or more of the ecosystemdevices available via the hub platform device (100), such as a digitalthermometer (30), a blood pressure measurement device, etc.; and/orusing other devices available within the room, such as the medicalexamination table (300). When connected to the hub platform device(100), room specific devices such as the medical examination table (300)may be interacted with via the hub platform device (100) or mobilecomputer (350) rather than by directly interacting with the roomspecific device. For example, when connected with hub platform device(100), the medical examination table (300) could be raised via a controlavailable on the mobile computer (350) rather than by using a foot pedalon the medical examination table (300). As a further example, themedical examination table (300) could be adjusted automatically basedupon preferences created during a prior visit for a particular patientand stored on and retrieved from the ecosystem server (5704) duringsubsequent visits.

As shown in FIGS. 23 and 27, once vitals are taken (2204), the hubplatform device (100) may exit the room (2306) and terminateconnectivity with devices specific to that room such as the medicalexamination table (300). For instance, the wireless communicationprotocol between the platform device (100) and the devices specific tothat room may have a relatively short range, such that the platformdevice (100) leaves that range when (or shortly after) the platformdevice (100) exits the room (2306). Connectivity may thus be terminatedsimply by platform device (100) leaving the range of the wirelesscommunication protocol. Alternatively, the room may include one or moreproximity sensors (e.g., RFID, EAS, etc.) that are configured to senseentry/exit of platform device (100) into/out of the room. Such sensorsmay thus provide automated initiation/termination of connectivitybetween platform device (100) and devices specific to that room based onthe sensed presence/absence of platform device (100) in the room.Various other suitable ways in which connectivity may be automaticallyinitiated/terminated based on the presence/absence of platform device(100) in the room will be apparent to those of ordinary skill in the artin view of the teachings herein. It should also be understood that suchproximity detection or sensitivity may be readily incorporated intovarious other examples described herein as will be apparent to those ofordinary skill in the art.

In the example shown, the storage cabinet (2400) remains unlocked at alltimes regardless of the presence of the hub platform device (100), butin some versions it may advantageous to automatically actuate the lockmechanism of the storage cabinet (2400) when connectivity between thestorage cabinet (2400) and the hub platform device (100) ceases, inorder to prevent access to the storage cabinet (2400) contents when nomedical personnel are present. Other actions could be taken whencommunication between the hub platform device (100) and room specificdevices ceases, for example, automatically updating records kept by theecosystem server (5704) indicating the physical location of the hubplatform device (100), automatically notifying a physician scheduled tovisit the medical examination room (5700) that vitals have beencompleted via a mobile device or other system, or automaticallytransferring vitals data (2308) or other data to the ecosystem server(5704) so that patient EMR may be created or updated.

As shown in FIGS. 23 and 28, once vitals have been taken (2304) andtransferred (2308), a physician may enter the room (2310) and perform anexamination (2312). In the present example, the physician may have amobile computer (350), tablet, smartphone, or other mobile computingdevice, but would not have a hub platform device (100), meaning that anyinteraction with the medical examination table (300) or other roomspecific devices would be direct and manual. Once the physicianexamination (2312) is complete, the physician exits the room (2314) asshown in FIGS. 23 and 29. Since the physician does not have a hubplatform device (100) in this example, no special ecosystemfunctionality is performed, but neither does the system hamper thephysician in his or her normal duties. While FIG. 29 shows storagecabinet (2400) in an unlocked state at this stage, it should beunderstood that storage cabinet (2400) may alternatively be locked atthis stage. For instance, as noted above, the lock mechanism of thestorage cabinet (2400) may be automatically actuated to lock the storagecabinet (2400) when connectivity between the storage cabinet (2400) andthe communication hub platform device (100) ceases as the communicationhub platform device (100) exits the room.

FIGS. 30-39 show an example of steps that could be performed with a hubplatform device (100) that is statically located in a medicalexamination room (5700). A statically located hub platform device (100)might be integrated with a mobile vitals cart (20) as described abovewith reference to communication hub assembly (10) and as shown in FIGS.31-35. Alternatively, hub platform device (100) may be integrated into awall mounted vitals unit that is affixed to a wall or other structure,as shown in FIG. 36-37, a table mounted vitals unit that is affixed to amedical examination table (300) or other stationary fixture as shown inFIGS. 38-39, or any other statically located hub platform device (100).It should therefore be understood that the procedure shown in FIGS.30-35 may be readily carried out in the setting shown in FIGS. 36-37 andin the setting shown in FIG. 38-39.

As shown in FIGS. 30 and 31-32, when a statically located hub platformdevice (100) is available in a medical examination room (5700), a mobilecomputer (350) can be placed (3000) on the hub platform device (100)causing connectivity to be established (3002) between the mobilecomputer (350) and the hub platform device (100). Establishingconnectivity (3002) may also extend to devices associated with the hubplatform device (100) as well as devices specific to a medicalexamination room (5700), such as the medical examination table (300) anda storage cabinet (2400), allowing such devices to be interacted withfrom a local location such as the mobile computer (350) or hub platformdevice (100); or from a remote location such as the ecosystem server(5704). As an example, once connectivity is established (3002), devicesand storage within the medical examination room may be enabled for useand access (3004). More specifically, establishing connectivity (3002)may cause, for example, the medical examination table (300) to be placedinto an operative mode, such that it can receive input from anintegrated foot pedal or switch, a mobile computer (350), or hubplatform device (100). As a further example, establishing connectivity(3002) may result in a storage cabinet (2400) having a lock mechanismdisabled, such that the contents of the storage cabinet (2400) can beaccessed by medical personnel.

As also shown in FIG. 30, once storage and devices have been enabled(3004), a patient's vitals may be taken (3006) and/or other proceduresperformed using one or more of the now enabled devices. Once these tasks(3006) are completed, the mobile computer (350) may be removed from thehub platform device (100), causing the connectivity to cease, andcausing the previously enabled storage and devices to be disabled(3010).

As shown in FIGS. 30 and 33, when a medical professional has completedtheir assigned tasks, they can remove the mobile computer (350) from thehub platform device (100) in preparation for leaving the room. Theremoval of the mobile computer (350) results in a loss of connectivity,and automatically disables one or more devices in the medicalexamination room (5700). For example, this could result in automaticallydisabling the medical examination table (300), preventing a patient frominteracting with integrated switches or controls, as well asautomatically actuating the locking mechanism for the storage cabinet(2400), preventing a patient from accessing the contents. As withprevious examples, upon removal of the mobile computer (350), vitalsdata can be automatically transferred (3012) to the ecosystem server(5704) and used to update or create a patient's EMR, a physician can beautomatically notified, equipment locations can be automaticallyupdated, and/or other actions may be automatically taken.

As shown in FIGS. 30 and 34, when the physician arrives, the physicianmobile computer (350) or tablet, smartphone, etc., can be placed (3014)on the hub platform device (100). When the physician mobile computer(350) is placed (3014), one or more devices or storage containers in theroom can be re-enabled (3016) by one or more of the hub platform device(100), physician mobile computer (350), or ecosystem server (5704). Asan example, when the physician mobile computer (350) is placed (3014),the medical examination table (300) may be enabled for use so that itcan be controlled from integrated pedals or switches, or controlled fromone or more of the hub platform device (100), mobile computer (350), orecosystem server (5704). As a further example, the storage cabinet(2400) could have a locking mechanism disabled, such that the storagecabinet (2400) contents can be accessed and used by the physician orother medical personnel present. After one or more devices or storageunits are enabled (3016), a physician may perform an examination (3018)using one or more of the ecosystem devices or storage units.

As shown in FIGS. 30 and 35, when the examination is complete (3018),the physician computer (350) is removed (3020) from the hub platformdevice (100), causing the previously enabled storage and devices to bedisabled (3022). For example, this could include automatically disablingthe medical examination table (300) so that it cannot be used whilemedical personnel are absent from the room, automatically enabling thelock mechanism on a storage cabinet (2400) to prevent access to thecontents while unsupervised by medical personnel, and/or automaticallytaking other actions.

FIGS. 40-52 show an example of steps that could be performed with amedical examination table (300) that may be part of an electronicecosystem. As shown in FIGS. 40 and 41, when a patient first approachesthe medical examination table (300), the integrated armrest (304) may bemanually or automatically adjusted to a position that assists thepatient in seating (4000). Automatic adjustment may be performed byretrieving a patient specific configuration from the ecosystem server(5704) and communicating it to the medical examination table (300),where an integrated powered armrest (304) may then automatically adjustto the stored configuration. As shown in FIGS. 40 and 42, the medicalexamination table (300) height may then be manually or automaticallyadjusted (4002) by, for example, expanding or collapsing an adjustablebase (308) to place the patient in a seated position that is bothcomfortable and allows for accurate measurement of vital information. Aswith automatic armrest (304) adjustment, automatic adjustment of themedical examination table (300) height may be performed retrieving asaved configuration from the ecosystem server (5704) and communicatingit to the medical examination table (300) so that a powered heightadjustable base (308) may automatically adjust to the storedconfiguration.

As shown in FIGS. 40 and 43, once a patient is seated an arm orientationpad (306) of the armrest (304) may be automatically or manually adjusted(4004) to raise or lower a patient arm to a height and position thatwill allow for accurate measurement of vital information. It should beunderstood that, in instances where armrest (304) and/or arm orientationpad (306) are powered for automatic adjustment, adjustment (4004) ofarmrest (304) and/or arm orientation pad (306) may be may be performedretrieving a saved configuration from the ecosystem server (5704) andcommunicating it to the medical examination table (300) so that armrest(304) and/or arm orientation pad (306) may automatically adjust to thestored configuration.

Once vital information is recorded (4006) and other related tasks arecomplete, the arm orientation pad (306) may be manually or automaticallyreturned to its original position (4008). In instances where armrest(304) and/or arm orientation pad (306) are powered for automaticadjustment, ecosystem server (5704) may issue a command to medicalexamination table (300) to return armrest (304) and/or arm orientationpad (306) to the original position (4008) in response to ecosystemserver (5704) receiving data indicating that sufficient vitalinformation has been recorded (4006). As shown in FIGS. 40 and 44, themedical examination table (300) may be raised (4010) via the heightadjustable base (308) so that a patient's feet are not bearing anyweight, and an integrated weight sensor of the medical examination table(300) may measure and record the weight of the patient (4012). By way ofexample only, medical examination table (300) may be constructed andoperable to measure weight in accordance with at least some of theteachings of U.S. Pub. No. 2013/0247300, entitled “Medical ExaminationTable with Integrated Scale,” published Sep. 26, 2013, the disclosure ofwhich is incorporated by reference herein.

Further, the height adjustable base (308) may be manually orautomatically raised (4010) to place the patient and the medicalexamination table (300) at an optimal height for a physician to examineand interact with a patient (4014). In instances where the patient wasoriginally in a generally supine or reclined position, the backrest ofthe medical examination table (300) may be automatically actuated toraise the backrest to transition the patient to an upright seatedposition. As with other automatic adjustments, a saved configurationspecific to an examining physician and/or patient may be retrieved fromthe ecosystem server (5704) and the powered height adjustable base (308)may automatically adjust to the preferred height. As shown in FIGS. 40and 45, once the examination is complete (4014), the medical examinationtable (300) may be returned to its original position (4016) so that thepatient may safely exit the chair.

While FIG. 40 shows one set of steps that could be performed with amedical examination table (300), variations on the order and nature ofthe steps exist and will be apparent in light of this disclosure. Forexample, FIGS. 46-52 show one such alternative order of steps describedabove. When a patient first arrives, the armrests may be manually orautomatically adjusted to aid in seating (4600) as shown in FIGS. 46-48.The medical examination table (300) height may be manually orautomatically adjusted (4602) via a powered base (308) to an originalposition. The medical examination table (300) height may be raised(4604) so that a patient's weight may be measured (4606) and thenreturned to its original position (4608) as shown in FIGS. 46 and 49-50.The arm orientation pad (306) may be manually or automaticallypositioned (4610) to allow for optimal measurement of vitals (4612) orother related tasks as shown in FIGS. 46 and 50. It should be understoodthat, in instances where armrest (304) and/or arm orientation pad (306)are powered for automatic adjustment, adjustment (4610) of armrest (304)and/or arm orientation pad (306) may be may be performed retrieving asaved configuration from the ecosystem server (5704) and communicatingit to the medical examination table (300) so that armrest (304) and/orarm orientation pad (306) may automatically adjust to the storedconfiguration.

Once vitals are completed (4612), the arm orientation pad (306) may bereturned to its origin position (4614). In instances where armrest (304)and/or arm orientation pad (306) are powered for automatic adjustment,ecosystem server (5704) may issue a command to medical examination table(300) to return armrest (304) and/or arm orientation pad (306) to theorigin position (4614) in response to ecosystem server (5704) receivingdata indicating that sufficient vital information has been recorded(4612). The medical examination table (300) may be raised (4616) to aposition that is ideal for a physician to examine and interact with apatient (4618) as shown in FIGS. 46 and 51. Once the physicianexamination is complete (4618) the medical examination table (300) canbe returned to its original position (4620) so that the patient maysafely exit as shown in FIGS. 46 and 52.

FIGS. 53-56 show an example of a set of steps that could be performedwith a device as part of an electronic ecosystem. FIGS. 54-56 show anelectrocardiogram device (ECG) (500) as an example of a device that maybe used within an electronic ecosystem, but it should be understood thatany suitable medical device may be similarly used. As shown in FIG. 53,when a medical professional wishes to use an ECG (500) within a medicalexamination room (5700) having a mobile computer (350) paired with a hubplatform device (100) and enabled for an electronic ecosystem, the ECG(500) may be connected to the ecosystem by, for example, an automaticproximity based connection (5300), a semi-automated code scan (5302), amanual device selection (5304), and/or using any other suitabletechnique(s). Proximity based connection (5300) may be achieved by usingauto detecting and auto connecting Bluetooth, NFC, infrared, radio, orother wireless communication that can sense a proximate compatibledevice and automatically connect. Proximity based connection (5300)could be configured such that an ECG (500) connects to the ecosystemwhen present in the same room by using a mid range wireless technologysuch as Bluetooth; or could be configured such that an ECG (500)connects to the ecosystem when placed in close proximity to the hubplatform device (100) by using a short range wireless technology such asNFC. A code scan connection (5302) may be achieved by providing anoptical scanner device as part of the hub platform device (100) that canread image encoded data from a barcode, quick response (QR) code, and/orother image recognition means. Manual device connection (5304) may beachieved by, for example, selecting an ECG (500) identifier from amobile computer (350) or hub platform device (100) display, selecting ahub platform device (100) from an ECG (500) display, and/or other manualselection means.

As shown in FIGS. 53 and 55, once an ECG (500) has been connected to theecosystem, an ECG test can be performed (5306) on a patient and datacaptured by the ECG (500) may be transferred (5308) to the ecosystemserver (5704) to create or update patient EMR and/or trigger otheractions. As shown in FIGS. 53 and 56, once data has been transferred(5308) the ECG (500) may be disconnected by, for example, a timeddisconnection (5310), a proximity disconnection (5312), or a manualdisconnection (5314). Timed disconnection (5310) may be achieved byconfiguring a time limit for connectivity, whereby a recently connectedECG (500) will automatically disconnect after the configured time limitexpires. In this manner, an ECG (500) could be configured toautomatically disconnect 10 minutes after connection. As another merelyillustrative example, ECG (500) could be configured to automaticallydisconnect 10 minutes after the last data transfer from ECG (500) to hubplatform device (100) and/or ecosystem server (5704). A proximitydisconnection (5312) may be achieved by configuring a Bluetooth or NFCconnection between an ECG (500) and a hub platform device (100) toautomatically disconnect when the ECG (500) is determined to be insideor outside a configured range of the hub platform device (100). In thismanner, an ECG (500) could be configured to automatically disconnectwhen the ECG (500) leaves a medical examination room (5700) or is passednear a specific location of a hub platform device (100) such as adeactivation swipe pad. Manual disconnection (5314) may be achieved byallowing a manual selection via a display of the mobile computer (350),hub platform device (100), or ECG (500) that could show activeconnections and allow them to be terminated. Other suitable ways inwhich various kinds of medical equipment may interact with hub platformdevice (100) will be apparent to those of ordinary skill in the art inview of the teachings herein.

III. Miscellaneous

It should be appreciated that any patent, publication, or otherdisclosure material, in whole or in part, that is said to beincorporated by reference herein is incorporated herein only to theextent that the incorporated material does not conflict with existingdefinitions, statements, or other disclosure material set forth in thisdisclosure. As such, and to the extent necessary, the disclosure asexplicitly set forth herein supersedes any conflicting materialincorporated herein by reference. Any material, or portion thereof, thatis said to be incorporated by reference herein, but which conflicts withexisting definitions, statements, or other disclosure material set forthherein will only be incorporated to the extent that no conflict arisesbetween that incorporated material and the existing disclosure material.

Having shown and described various embodiments of the present invention,further adaptations of the methods and systems described herein may beaccomplished by appropriate modifications by one of ordinary skill inthe art without departing from the scope of the present invention.Several of such potential modifications have been mentioned, and otherswill be apparent to those skilled in the art. For instance, theexamples, embodiments, geometrics, materials, dimensions, ratios, steps,and the like discussed above are illustrative and are not required.Accordingly, the scope of the present invention should be considered interms of the following claims and is understood not to be limited to thedetails of structure and operation shown and described in thespecification and drawings.

We claim:
 1. A system comprising: (a) a storage device, wherein thestorage device is configured to store data; (b) a storage cabinet havingan electrically powered lock, wherein the lock is configured toselectively provide or prevent access to contents of the storagecabinet, wherein the storage cabinet is remotely located relative to thestorage device, wherein the storage cabinet is located in a room; (c) aportable computing device, wherein the portable computing device isremotely located relative to the storage device; (d) a hub portal,wherein the hub portal is configured to transmit communication databetween the hub portal and the storage device, wherein the hub portal isconfigured to transmit communication data between the hub portal and thestorage cabinet, wherein the hub portal is configured to transmitcommunication data between the hub portal and the portable computingdevice; wherein the portable computing device or the hub portal isconfigured to issue a command to the lock of the storage cabinet toselectively provide or prevent access to contents of the storage cabinetbased on a presence or absence of the portable computing device in theroom.
 2. The system of claim 1, wherein the storage cabinet comprises aclimate control feature, wherein the hub portal is configured to issue acommand to the climate control feature.
 3. The system of claim 1,wherein the storage device comprises a server having a databaseconfigured to store patient related data.
 4. The system of claim 1,wherein the storage cabinet further comprises a climate detectionfeature, wherein the hub portal is configured to receive climate datafrom the climate detection feature.
 5. The system of claim 1, furthercomprising a medical device configured to detect a physiologicalparameter of a patient, wherein the medical device is configured tocommunicate the detected physiological parameter to the hub portal orthe portable computing device.
 6. A system comprising: (a) a storagedevice, wherein the storage device is configured to store data; (b) afirst piece of medical equipment, wherein the first piece of medicalequipment is remotely located relative to the storage device, whereinthe first piece of medical equipment comprises either: (i) a medicalexamination table having at least one electrically powered feature, or(ii) a storage cabinet having at least one electrically powered feature;(c) a portable computing device, wherein the storage device is remotelylocated relative to the portable computing device; and (d) a hub portal,wherein the hub portal is configured to provide communication databetween the hub portal and the storage device, wherein the hub portal isconfigured to provide communication data between the hub portal and thefirst piece of medical equipment, wherein the hub portal is configuredto provide communication data between the hub portal and the portablecomputing device, wherein the hub portal comprises a platform assemblyhaving a surface configured to receive and support the portablecomputing device, wherein the hub portal is configured to selectivelyestablish or cease communication with the portable computing devicebased on the presence or absence of the portable computing device on thesurface of the platform assembly.
 7. The system of claim 6, wherein thehub portal further comprises a wireless network router in communicationwith the platform assembly.
 8. The system of claim 6, wherein theplatform assembly further comprises a plurality of ports, wherein theports are configured to provide wired coupling with a plurality of kindsof medical equipment including the first piece of medical equipment. 9.The system of claim 6, wherein the platform assembly further comprises amobile cart under the surface.
 10. The system of claim 6, wherein thefirst piece of medical equipment comprises a medical examination table,wherein the platform assembly is mounted to either the medicalexamination table or a wall of a room in which the medical examinationtable is located.
 11. A system comprising: (a) a storage device, whereinthe storage device is configured to store data; (b) a medical device,wherein the medical device is remotely located relative to the storagedevice; (c) a portable computing device, wherein the portable computingdevice is remotely located relative to the storage device; and (d) a hubportal, wherein the hub portal is configured to transmit communicationdata between the hub portal and the storage device, wherein the hubportal is configured to transmit communication data between the hubportal and the medical device, and wherein the hub portal is configuredto transmit communication data between the hub portal and the portablecomputing device, wherein the hub portal comprises a platform assemblyhaving a surface configured to receive and support the portablecomputing device, wherein the hub portal is configured to selectivelyestablish or cease communication with the portable computing devicebased on the presence or absence of the portable computing device on thesurface of the platform assembly.
 12. The system of claim 11, whereinthe hub portal further comprises a wireless network router incommunication with the platform assembly.
 13. The system of claim 11,wherein the platform assembly further comprises a plurality of ports,wherein the ports are configured to provide wired coupling with aplurality of kinds of medical equipment including the medical device.14. The system of claim 11, wherein the platform assembly furthercomprises a mobile cart under the surface.
 15. The system of claim 11,wherein the platform assembly is mounted to the medical device.
 16. Thesystem of claim 11, wherein the platform assembly is mounted to a wallof a room in which the medical device is located.
 17. The system ofclaim 11, wherein the medical device includes a climate control feature,wherein the hub portal is configured to issue a command to the climatecontrol feature.